Container with synthetic resin window, preform, and preform injection molding apparatus

The invention claimed is: 1. An injection molding apparatus that injection molds a test-tube-shaped preform that is subjected to biaxial stretch blow molding, the preform including a circumferential wall having a longitudinal strip-shaped portion that is made of a B resin and that is formed in a longitudinal strip shape penetrating the circumferential wall in a circumferentially predetermined position in the circumferential wall over a predetermined height range, a remaining portion of the circumferential wall excluding the longitudinal strip-shaped portion being made of an A resin, the injection molding apparatus comprising: a nozzle portion that supplies the A resin and the B resin which are molten along a circumferential direction; and a mold that is located in a front end of the nozzle portion, wherein the nozzle portion includes: a cylindrical inner mandrel; an outer mandrel that is arranged coaxially with the inner mandrel; and a columnar shut-off pin that is inserted and arranged in the inner mandrel and that serves to release and shut off flows of the molten resins in a front end portion of the nozzle portion, and wherein between the inner mandrel and the outer mandrel, a cylindrical flow path and a reduced-diameter flow path are formed in the stated order in a direction toward a downstream side, the reduced-diameter flow path being configured by a cylindrical flow path tapered to have a reduced diameter toward downstream, and on downstream of the reduced-diameter flow path, a columnar joining flow path is formed in which the molten resins in cylindrical forms join into a columnar form, in a predetermined range extending from an upstream end to a predetermined downstream position of a flow path including the cylindrical flow path and the reduced-diameter flow path, a pair of guiding ribs in the form of longitudinal ridges is arranged in line to partition the flow path including the cylindrical flow path and the reduced-diameter flow path in the circumferential direction, and a longitudinal groove flow path is formed between the pair of guiding ribs, and the B resin is supplied to the longitudinal groove flow path, and the A resin is supplied to the cylindrical flow path excluding the longitudinal groove flow path, and a molten resin lump of the molten resins that have joined into the columnar form is injected and filled into a cavity of the mold via the joining flow path of the nozzle portion and a pin gate located in a position of the cavity of the mold that corresponds to a middle of a bottom wall of a bottom portion of the preform, wherein the shut-off pin includes a conical front end portion that is positioned to protrude from a front end of the inner mandrel in a releasing position of the shut-off pin, with a central axis of the conical front end portion being inclined to a front end thereof toward a direction that is opposite to a circumferential position in which the longitudinal groove flow path is formed, and with a front end of the conical front end portion diverging to the direction that is opposite to the circumferential position in which the longitudinal groove flow path is formed to be eccentrically positioned. 2. The injection molding apparatus of claim 1 , wherein on upstream of the cylindrical flow path, an outer circumferential surface of the inner mandrel is engraved with an upstream longitudinal groove flow path which is in communication with the longitudinal groove flow path.